Merge pull request '[1375]인증용량 쿼리수정' (#402) from dev into prd-deploy
Reviewed-on: #402
This commit is contained in:
commit
f5a585f050
@ -1824,6 +1824,10 @@ public class EstimateService {
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byte[] excelBytes =
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excelUtil.download(request, response, excelData, excelList, excelTemplateNam);
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if (excelBytes == null || excelBytes.length == 0) {
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throw new RuntimeException("Excel template processing returned empty result. Template: " + excelTemplateNam);
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}
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InputStream in = new ByteArrayInputStream(excelBytes);
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workbook = WorkbookFactory.create(in); // JXLS POI 엑셀로 재변환
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@ -69,7 +69,8 @@ public class ExcelUtil {
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excelBytes = byteArrayOutputStream.toByteArray();
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}
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} catch (Exception e) {
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log.debug(e.getMessage());
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log.error("ExcelUtil.download error: {}", e.getMessage(), e);
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throw new RuntimeException("Excel template processing failed", e);
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}
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return excelBytes;
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@ -118,7 +119,8 @@ public class ExcelUtil {
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JxlsHelper.getInstance().processTemplate(is, os, context);
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}
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} catch (Exception e) {
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log.debug(e.getMessage());
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log.error("ExcelUtil.download error: {}", e.getMessage(), e);
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throw new RuntimeException("Excel template processing failed", e);
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}
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}
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@ -396,116 +396,76 @@
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<select id="selectEstimateRoofCertVolKw" parameterType="com.interplug.qcast.biz.estimate.dto.EstimateRequest" resultType="String">
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/* sqlid : com.interplug.qcast.biz.estimate.selectEstimateRoofCertVolKw */
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<![CDATA[
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SELECT
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CAST(
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SUM(
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CASE
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WHEN (X.M_VOL_KW + X.M_VOL_KW2) < X.PC_VOL_KW THEN (X.M_VOL_KW + X.M_VOL_KW2)
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WHEN X.PC_VOL_KW <= (X.M_VOL_KW + X.M_VOL_KW2) THEN X.PC_VOL_KW
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ELSE 0
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END
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) AS DECIMAL(18,3)
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) AS CERT_VOL_KW
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FROM (
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SELECT DISTINCT
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Y.M_ITEM_ID,
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Y.M_SPEC,
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(Y.M_AMT2 - Y.M_AMT) AS M_CNT,
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ROUND((Y.M_AMT * CAST(ISNULL(Y.M_SPEC, 0) AS FLOAT) / 1000), 4) AS M_VOL,
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ROUND((Y.M_AMT2 * CAST(ISNULL(Y.M_SPEC, 0) AS FLOAT) / 1000), 4) AS M_VOL2,
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ROUND(((Y.M_AMT2 - Y.M_AMT) * CAST(ISNULL(Y.M_SPEC, 0) AS FLOAT) / 1000), 4) AS R_VOL,
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CASE
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WHEN Y.M_AMT < Y.M_AMT2
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THEN ROUND((Y.M_AMT * CAST(ISNULL(Y.M_SPEC, 0) AS FLOAT) / 1000), 4)
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ELSE
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ROUND((Y.M_AMT2 * CAST(ISNULL(Y.M_SPEC, 0) AS FLOAT) / 1000), 4)
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END AS M_VOL_KW,
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ROUND((Y.P_AMT * CAST(ISNULL(Y.P_SPEC, 0) AS FLOAT) / 1000), 4) AS PC_VOL_KW,
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CASE
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WHEN 0 < (Y.M_AMT2 - Y.M_AMT)
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THEN ROUND(((Y.M_AMT2 - Y.M_AMT) * CAST(ISNULL(Y.M_SPEC2, 0) AS FLOAT) / 1000), 4)
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ELSE 0
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END AS M_VOL_KW2
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FROM (
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SELECT
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ZC.ROOF_ITEM_NO,
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ZC.M_ITEM_ID,
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ZC.M_SPEC,
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ZC.M_AMT,
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(ZC.M_1 + ZC.M_2 + ZC.M_3) AS M_AMT2,
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ZC.P_ITEM_ID,
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ZC.P_AMT,
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ZC.PC_ITEM_ID,
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ZC.QCAST_CUST_PRD_ID,
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CASE
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WHEN ZC.P_SPEC != '0' THEN P_SPEC
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WHEN ZC.CUST_SPEC != '0' THEN CUST_SPEC
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WHEN ZC.PC_SPEC != '0' THEN PC_SPEC
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ELSE '0'
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END AS P_SPEC,
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(SELECT SPECIFICATION
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FROM T_PART_ROOF_ITEM_ESTIMATE
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WHERE OBJECT_NO = ZC.OBJECT_NO
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AND PLAN_NO = ZC.PLAN_NO
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AND ROOF_ITEM_NO = (ZC.ROOF_ITEM_NO + 1)) AS M_SPEC2
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FROM (
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SELECT
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Z.*,
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CAST(ISNULL(SPLIT.M_1, 0) AS INT) AS M_1,
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CAST(ISNULL(SPLIT.M_2, 0) AS INT) AS M_2,
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CAST(ISNULL(SPLIT.M_3, 0) AS INT) AS M_3
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FROM (
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SELECT
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TRI.ROOF_ITEM_NO,
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TRI.OBJECT_NO,
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TRI.PLAN_NO,
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TRI.ITEM_ID AS M_ITEM_ID,
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TRI.ITEM_NO,
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TRI.SPECIFICATION AS M_SPEC,
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TRI.AMOUNT AS M_AMT,
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TCI.ITEM_ID AS P_ITEM_ID,
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TRI.PC_ITEM_ID,
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TRI.QCAST_CUST_PRD_ID,
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TCI.P_AMT,
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(SELECT ISNULL(M.PNOW_W,0) FROM M_ITEM M WHERE M.ITEM_ID = TCI.ITEM_ID) AS P_SPEC,
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(SELECT ISNULL(M.PNOW_W,0) FROM M_ITEM M WHERE M.ITEM_ID = TRI.PC_ITEM_ID) AS PC_SPEC,
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(SELECT ISNULL(M.PNOW_W,0) FROM M_ITEM M WHERE M.ITEM_ID = TRI.QCAST_CUST_PRD_ID) AS CUST_SPEC,
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TCI.CIRCUIT_CFG
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FROM T_PART_ROOF_ITEM_ESTIMATE TRI
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INNER JOIN (
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SELECT
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TI.CIRCUIT_NO,
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TI.OBJECT_NO,
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TI.PLAN_NO,
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TI.ITEM_ID,
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TI.CIRCUIT_CFG,
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COUNT(*) AS P_AMT
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FROM T_PART_CIRCUIT_ITEM_ESTIMATE TI
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GROUP BY TI.CIRCUIT_NO, TI.OBJECT_NO, TI.PLAN_NO, TI.ITEM_ID, TI.CIRCUIT_CFG
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) TCI
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ON TRI.ROOF_ITEM_NO = TCI.CIRCUIT_NO
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AND TRI.OBJECT_NO = TCI.OBJECT_NO
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AND TRI.PLAN_NO = TCI.PLAN_NO
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WHERE
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TRI.OBJECT_NO = #{objectNo}
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AND TRI.PLAN_NO = #{planNo}
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) Z
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CROSS APPLY (
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SELECT
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X.value('(/x[1]/v[1])[1]', 'VARCHAR(50)') AS M_1,
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X.value('(/x[1]/v[2])[1]', 'VARCHAR(50)') AS M_2,
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X.value('(/x[1]/v[3])[1]', 'VARCHAR(50)') AS M_3
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FROM (
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SELECT CAST('<x><v>' + REPLACE(ISNULL(Z.CIRCUIT_CFG, ''), ',', '</v><v>') + '</v></x>' AS XML)
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) A(X)
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) SPLIT
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) ZC
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INNER JOIN T_PART_ESTIMATE TE
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ON ZC.OBJECT_NO = TE.OBJECT_NO
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AND ZC.PLAN_NO = TE.PLAN_NO
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AND TE.ITEM_ID IN (ZC.P_ITEM_ID, ZC.PC_ITEM_ID, ZC.QCAST_CUST_PRD_ID)
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) Y
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) X
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;WITH
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CS AS (
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SELECT
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cie.CIRCUIT_NO, cie.OBJECT_NO, cie.PLAN_NO,
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cie.ITEM_ID AS CIRCUIT_ITEM_ID, cie.CIRCUIT_CFG,
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(SELECT SUM(CAST(LTRIM(RTRIM(x.X.value('.','VARCHAR(10)'))) AS INT))
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FROM (SELECT CAST('<X>'+REPLACE(cie.CIRCUIT_CFG,',','</X><X>')+'</X>' AS XML) AS d) t
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CROSS APPLY t.d.nodes('/X') AS x(X)
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) AS CIRCUIT_SUM
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FROM T_PART_CIRCUIT_ITEM_ESTIMATE cie
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WHERE cie.OBJECT_NO = #{objectNo} AND cie.PLAN_NO = #{planNo}
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AND cie.CIRCUIT_CFG IS NOT NULL
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),
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CC AS (
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SELECT cs.*,
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ISNULL((SELECT SUM(c2.CIRCUIT_SUM) FROM CS c2
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WHERE c2.OBJECT_NO=cs.OBJECT_NO AND c2.PLAN_NO=cs.PLAN_NO
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AND c2.CIRCUIT_NO < cs.CIRCUIT_NO), 0) AS CUM_START,
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ISNULL((SELECT SUM(c2.CIRCUIT_SUM) FROM CS c2
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WHERE c2.OBJECT_NO=cs.OBJECT_NO AND c2.PLAN_NO=cs.PLAN_NO
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AND c2.CIRCUIT_NO <= cs.CIRCUIT_NO), 0) AS CUM_END
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FROM CS cs
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),
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RC AS (
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SELECT
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rie.ROOF_ITEM_NO, rie.ROOF_SURFACE_ID, rie.OBJECT_NO, rie.PLAN_NO,
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rie.ITEM_ID AS ROOF_ITEM_ID, rie.ITEM_NAME,
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CAST(rie.SPECIFICATION AS FLOAT) AS SPEC, rie.AMOUNT, rie.PC_ITEM_ID,
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ISNULL((SELECT SUM(r2.AMOUNT) FROM T_PART_ROOF_ITEM_ESTIMATE r2
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WHERE r2.OBJECT_NO=rie.OBJECT_NO AND r2.PLAN_NO=rie.PLAN_NO
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AND r2.ROOF_SURFACE_ID=rie.ROOF_SURFACE_ID
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AND r2.ROOF_ITEM_NO < rie.ROOF_ITEM_NO), 0) AS CUM_START,
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ISNULL((SELECT SUM(r2.AMOUNT) FROM T_PART_ROOF_ITEM_ESTIMATE r2
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WHERE r2.OBJECT_NO=rie.OBJECT_NO AND r2.PLAN_NO=rie.PLAN_NO
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AND r2.ROOF_SURFACE_ID=rie.ROOF_SURFACE_ID
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AND r2.ROOF_ITEM_NO <= rie.ROOF_ITEM_NO), 0) AS CUM_END
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FROM T_PART_ROOF_ITEM_ESTIMATE rie
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WHERE rie.OBJECT_NO = #{objectNo} AND rie.PLAN_NO = #{planNo}
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),
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ALLOC AS (
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SELECT
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cc.CIRCUIT_NO, cc.CIRCUIT_ITEM_ID, cc.CIRCUIT_CFG, cc.CIRCUIT_SUM,
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rc.ROOF_ITEM_NO, rc.ROOF_ITEM_ID, rc.SPEC, rc.PC_ITEM_ID,
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-- 할당량 = MIN(끝,끝) - MAX(시작,시작)
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CASE WHEN cc.CUM_END < rc.CUM_END THEN cc.CUM_END ELSE rc.CUM_END END
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- CASE WHEN cc.CUM_START > rc.CUM_START THEN cc.CUM_START ELSE rc.CUM_START END AS ALLOCATED_QTY
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FROM CC cc
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INNER JOIN RC rc ON cc.OBJECT_NO = rc.OBJECT_NO AND cc.PLAN_NO = rc.PLAN_NO
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WHERE cc.CUM_START < rc.CUM_END AND cc.CUM_END > rc.CUM_START
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),
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DETAIL AS (
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SELECT
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a.CIRCUIT_NO, a.CIRCUIT_ITEM_ID, a.CIRCUIT_CFG, a.CIRCUIT_SUM,
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a.ROOF_ITEM_NO, a.ROOF_ITEM_ID, a.ALLOCATED_QTY,
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ROUND(a.SPEC, 3) * a.ALLOCATED_QTY AS SPEC_X_QTY,
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(SELECT mi.PNOW_W FROM M_ITEM mi WHERE mi.ITEM_ID = a.CIRCUIT_ITEM_ID) AS PNOW_W
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FROM ALLOC a
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),
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CIRCUIT_AGG AS (
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SELECT
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CIRCUIT_NO, CIRCUIT_ITEM_ID, CIRCUIT_CFG, CIRCUIT_SUM,
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SUM(SPEC_X_QTY) AS SUM_SPEC_X_QTY, PNOW_W,
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CASE WHEN SUM(SPEC_X_QTY) <= PNOW_W THEN SUM(SPEC_X_QTY) ELSE PNOW_W END AS MIN_VALUE
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FROM DETAIL
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GROUP BY CIRCUIT_NO, CIRCUIT_ITEM_ID, CIRCUIT_CFG, CIRCUIT_SUM, PNOW_W
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)
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SELECT ROUND((SUM(MIN_VALUE) / 1000), 4) AS CERT_VOL_KW
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FROM CIRCUIT_AGG
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]]>
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</select>
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